Publication detail

Safe and secure networks of microelectronic systems

ŠVÉDA, M., VRBA, R.

Original Title

Safe and secure networks of microelectronic systems

English Title

Safe and secure networks of microelectronic systems

Type

report

Language

en

Original Abstract

This report presents a safety and security-based approach to networked embedded system design that offers reusable design patterns for applications dedicated to various domains. After introducing dependability requirements for such embedded system applications as smart sensor networks, it deals with industrial, sensor-based applications development support aiming at distributed components interconnected by wired Internet compatible intranets and wireless sensor networks. The report presents a safety and security-driven approach to embedded system design for an industrial class of Internet-based applications. It discusses an integrated networking framework stemming from the IEEE 1451.1 smart transducer interface standard, which is an object-based networking model supporting client-server and publish-subscribe communication patterns in group messaging, and from the IP multicast communication, all together mediating safe and secure access to smart sensors through Internet. The case study demonstrates how clients can access groups of wireless smart pressure and temperature sensors and valves effectively through Internet using developed system architecture while respecting prescribed requirements for application dependent safety and security.

English abstract

This report presents a safety and security-based approach to networked embedded system design that offers reusable design patterns for applications dedicated to various domains. After introducing dependability requirements for such embedded system applications as smart sensor networks, it deals with industrial, sensor-based applications development support aiming at distributed components interconnected by wired Internet compatible intranets and wireless sensor networks. The report presents a safety and security-driven approach to embedded system design for an industrial class of Internet-based applications. It discusses an integrated networking framework stemming from the IEEE 1451.1 smart transducer interface standard, which is an object-based networking model supporting client-server and publish-subscribe communication patterns in group messaging, and from the IP multicast communication, all together mediating safe and secure access to smart sensors through Internet. The case study demonstrates how clients can access groups of wireless smart pressure and temperature sensors and valves effectively through Internet using developed system architecture while respecting prescribed requirements for application dependent safety and security.

Keywords

embedded system, smart sensor, wireless network, Internet, safety, security

RIV year

2006

Released

14.12.2006

Publisher

Faculty of Electrical Engineering and Communication BUT

Location

Brno

Pages count

13

Documents

BibTex


@techreport{BUT58319,
  author="Miroslav {Švéda} and Radimír {Vrba}",
  title="Safe and secure networks of microelectronic systems",
  annote="This report presents a safety and security-based approach to networked embedded system design that offers reusable design patterns for applications dedicated to various domains. After introducing dependability requirements for such embedded system applications as smart sensor networks, it deals with industrial, sensor-based applications development support aiming at distributed components interconnected by wired Internet compatible intranets and wireless sensor networks. The report presents a safety and security-driven approach to embedded system design for an industrial class of Internet-based applications. It discusses an integrated networking framework stemming from the IEEE 1451.1 smart transducer interface standard, which is an object-based networking model supporting client-server and publish-subscribe communication patterns in group messaging, and from the IP multicast communication, all together mediating safe and secure access to smart sensors through Internet. The case study demonstrates how clients can access groups of wireless smart pressure and temperature sensors and valves effectively through Internet using developed system architecture while respecting prescribed requirements for application dependent safety and security.",
  address="Faculty of Electrical Engineering and Communication BUT",
  chapter="58319",
  institution="Faculty of Electrical Engineering and Communication BUT",
  year="2006",
  month="december",
  publisher="Faculty of Electrical Engineering and Communication BUT",
  type="report"
}